Identification of STAT3 phosphorylation inhibitors using generative deep learning, virtual screening, molecular dynamics simulations, and biological evaluation for non-small cell lung cancer therapy.

IF 3.9 2区化学 Q2 CHEMISTRY, APPLIED

Molecular Diversity Pub Date : 2024-12-23 DOI:10.1007/s11030-024-11067-5

Weiji Cai, Beier Jiang, Yichen Yin, Lei Ma, Tao Li, Jing Chen

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引用次数: 0

Abstract

The development of phosphorylation-suppressing inhibitors targeting Signal Transducer and Activator of Transcription 3 (STAT3) represents a promising therapeutic strategy for non-small cell lung cancer (NSCLC). In this study, a generative model was developed using transfer learning and virtual screening, leveraging a comprehensive dataset of STAT3 inhibitors to explore the chemical space for novel candidates. This approach yielded a chemically diverse library of compounds, which were prioritized through molecular docking and molecular dynamics (MD) simulations. Among the identified candidates, the HG110 molecule demonstrated potent suppression of STAT3 phosphorylation at Tyr705 and inhibited its nuclear translocation in IL6-stimulated H441 cells. Rigorous MD simulations further confirmed the stability and interaction profiles of top candidates within the STAT3 binding site. Notably, HG106 and HG110 exhibited superior binding affinities and stable conformations, with favorable interactions involving key residues in the STAT3 binding pocket, outperforming known inhibitors. These findings underscore the potential of generative deep learning to expedite the discovery of selective STAT3 inhibitors, providing a compelling pathway for advancing NSCLC therapies.

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利用生成式深度学习、虚拟筛选、分子动力学模拟和非小细胞肺癌治疗的生物学评估来鉴定STAT3磷酸化抑制剂。

靶向信号转导和转录激活因子3 （STAT3）的磷酸化抑制抑制剂的开发是非小细胞肺癌（NSCLC）的一种有前景的治疗策略。在这项研究中，利用迁移学习和虚拟筛选开发了一个生成模型，利用STAT3抑制剂的综合数据集来探索新的候选药物的化学空间。这种方法产生了化学多样性的化合物库，并通过分子对接和分子动力学（MD）模拟对这些化合物进行了优先排序。在确定的候选分子中，HG110分子在il6刺激的H441细胞中表现出对STAT3 Tyr705磷酸化的有效抑制，并抑制其核易位。严格的MD模拟进一步证实了STAT3结合位点内候选蛋白的稳定性和相互作用谱。值得注意的是，HG106和HG110表现出优异的结合亲和力和稳定的构象，与STAT3结合口袋中的关键残基有良好的相互作用，优于已知的抑制剂。这些发现强调了生成式深度学习在加速发现选择性STAT3抑制剂方面的潜力，为推进NSCLC治疗提供了一个引人注目的途径。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Molecular Diversity 化学-化学综合

CiteScore

7.30

自引率

7.90%

发文量

219

审稿时长

2.7 months

期刊介绍： Molecular Diversity is a new publication forum for the rapid publication of refereed papers dedicated to describing the development, application and theory of molecular diversity and combinatorial chemistry in basic and applied research and drug discovery. The journal publishes both short and full papers, perspectives, news and reviews dealing with all aspects of the generation of molecular diversity, application of diversity for screening against alternative targets of all types (biological, biophysical, technological), analysis of results obtained and their application in various scientific disciplines/approaches including: combinatorial chemistry and parallel synthesis; small molecule libraries; microwave synthesis; flow synthesis; fluorous synthesis; diversity oriented synthesis (DOS); nanoreactors; click chemistry; multiplex technologies; fragment- and ligand-based design; structure/function/SAR; computational chemistry and molecular design; chemoinformatics; screening techniques and screening interfaces; analytical and purification methods; robotics, automation and miniaturization; targeted libraries; display libraries; peptides and peptoids; proteins; oligonucleotides; carbohydrates; natural diversity; new methods of library formulation and deconvolution; directed evolution, origin of life and recombination; search techniques, landscapes, random chemistry and more;

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